Textbook-Integrated Guide to Educational Resources

TIGER

Journal Articles: 23 results

A New "Bottom-Up" Framework for Teaching Chemical Bonding Tami Levy Nahum, Rachel Mamlok-Naaman, Avi Hofstein, and Leeor Kronik
This article presents a general framework for bonding that can be presented at different levels of sophistication depending on the student's level and needs. The pedagogical strategy for teaching this model is a "bottom-up" one, starting with basic principles and ending with specific properties.
Levy Nahum, Tami; Mamlok-Naaman, Rachel; Hofstein, Avi; Kronik, Leeor. J. Chem. Educ. 2008, 85, 1680.

Atomic Properties / Structure |

Covalent Bonding |

Ionic Bonding |

Lewis Structures |

Materials Science |

MO Theory |

Noncovalent Interactions

Lewis Structure Representation of Free Radicals Similar to ClO Warren Hirsch and Mark Kobrak
An unconventional Lewis structure is proposed to explain the properties of the free radical ClO and a series of its isoelectronic analogues, particularly trends in the spin density of these species.
Hirsch, Warren; Kobrak, Mark. J. Chem. Educ. 2007, 84, 1360.

Atmospheric Chemistry |

Computational Chemistry |

Covalent Bonding |

Free Radicals |

Lewis Structures |

Molecular Modeling |

MO Theory |

Valence Bond Theory

Predicting the Stability of Hypervalent Molecules Tracy A. Mitchell, Debbie Finocchio, and Jeremy Kua
In this exercise, students use concepts in thermochemistry such as bond energy, ionization potentials, and electron affinities to predict the relative stability of two hypervalent molecules (PF5 and PH5) relative to their respective non-hypervalent counterparts.
Mitchell, Tracy A.; Finocchio, Debbie; Kua, Jeremy. J. Chem. Educ. 2007, 84, 629.

Computational Chemistry |

Covalent Bonding |

Ionic Bonding |

Lewis Structures |

Molecular Modeling |

Calorimetry / Thermochemistry |

Molecular Properties / Structure

Valence, Oxidation Number, and Formal Charge: Three Related but Fundamentally Different Concepts Gerard Parkin
The purpose of this article is to clarify the terms valence, oxidation number, coordination number, formal charge, and number of bonds and illustrate how the valence of an atom in a molecule provides a much more meaningful criterion for establishing the chemical reasonableness of a molecule than does the oxidation number.
Parkin, Gerard. J. Chem. Educ. 2006, 83, 791.

Coordination Compounds |

Covalent Bonding |

Lewis Structures |

Oxidation State |

Nomenclature / Units / Symbols

Writing Electron Dot Structures Kenneth R. Magnell
Drill with feedback for students learning to write electron dot structures.
Magnell, Kenneth R. J. Chem. Educ. 2003, 80, 711.

Covalent Bonding |

Lewis Structures |

Resonance Theory |

Enrichment / Review Materials

How We Teach Molecular Structure to Freshmen Michael O. Hurst
Examination of how textbooks discuss various aspects of molecular structure; conclusion that much of general chemistry is taught the way it is for historical and not pedagogical reasons.
Hurst, Michael O. J. Chem. Educ. 2002, 79, 763.

Covalent Bonding |

Atomic Properties / Structure |

Molecular Properties / Structure |

Lewis Structures |

VSEPR Theory |

Valence Bond Theory |

MO Theory

The Role of Lewis Structures in Teaching Covalent Bonding S. R. Logan
Difficulties with the Lewis theory of covalent bonding and upgrading it to the Molecular Orbital theory.
Logan, S. R. J. Chem. Educ. 2001, 78, 1457.

Covalent Bonding |

MO Theory |

Nonmajor Courses |

Learning Theories |

Lewis Structures |

Molecular Properties / Structure

Lewis Structures in General Chemistry: Agreement between Electron Density Calculations and Lewis Structures Gordon H. Purser
The internuclear electron densities of a series of X-O bonds (where X = P, S, or Cl) are calculated using quantum mechanics and compared to Lewis structures for which the formal charges have been minimized; a direct relationship is found between the internuclear electron density and the bond order predicted from Lewis structures in which formal charges are minimized.
Purser, Gordon H. J. Chem. Educ. 2001, 78, 981.

Covalent Bonding |

Computational Chemistry |

Molecular Properties / Structure |

Lewis Structures |

Quantum Chemistry

Drawing Lewis Structures from Lewis Symbols: A Direct Electron-Pairing Approach Wan-Yaacob Ahmad and Mat B. Zakaria
We describe a different, more student-friendly approach to writing Lewis structures for covalent molecules and ions based on Lewis theory and Abegg's rule. Several rules for selecting central atoms are provided. Separate sets of rules are provided for diatomic molecules and ions and for polyatomic molecules and ions.
Ahmad, Wan-Yaacob; Zakaria, Mat B. J. Chem. Educ. 2000, 77, 329.

Molecular Properties / Structure |

Lewis Structures

Lewis Structures Are Models for Predicting Molecular Structure, Not Electronic Structure Gordon H. Purser
This article argues against a close relationship between Lewis dot structures and electron structure obtained from quantum mechanical calculations. Lewis structures are a powerful tool for structure prediction, though they are classical models of bonding and do not predict electronic structure.
Purser, Gordon H. J. Chem. Educ. 1999, 76, 1013.

Molecular Properties / Structure |

Covalent Bonding |

Computational Chemistry |

Quantum Chemistry |

MO Theory |

Learning Theories |

Lewis Structures |

Molecular Modeling

Simplified Lewis Structure Drawing for Nonscience Majors Barnabe B. Miburo
Lewis structures are drawn using a simplified novel method with the following features: 1) the atoms used are brought in carrying all their valence electrons; 2) bonds are created by pairing up valence electrons between the central atoms and peripheric atoms; 3) anions are formed by addition of electrons to single electrons on appropriate atoms, while cations are formed by removal of single electrons.
Miburo, Barnabe B. J. Chem. Educ. 1998, 75, 317.

Learning Theories |

Lewis Structures |

Nonmajor Courses |

Molecular Properties / Structure

Lewis Structures of Oxygen Compounds of 3p-5p Nonmetals Darel K. Straub
Procedure for writing Lewis structures of oxygen compounds of 3p-5p nonmetals.
Straub, Darel K. J. Chem. Educ. 1995, 72, 889.

Lewis Structures |

Molecular Properties / Structure |

Covalent Bonding |

Main-Group Elements

Lewis Structures of Boron Compounds Involving Multiple Bonding Straub, Darel K.
Considers evidence for multiple bonding in boron compounds and supposed exceptions to the octet rule.
Straub, Darel K. J. Chem. Educ. 1995, 72, 494.

Lewis Structures |

Covalent Bonding

Drawing Lewis structures: A step-by-step approach Ahmad, Wan-Yaacob; Omar, Siraj
A simple step-by-step approach for deriving Lewis structures for students studying introductory chemistry.
Ahmad, Wan-Yaacob; Omar, Siraj J. Chem. Educ. 1992, 69, 791.

Lewis Structures |

VSEPR Theory |

Molecular Properties / Structure

Lewis structures, formal charge, and oxidation numbers: A more user-friendly approach Packer, John E.; Woodgate, Sheila D.
This paper presents a set of rules for writing Lewis structures requiring only the ability to add, subtract, count, and know the number of valence electrons of neutral atoms.
Packer, John E.; Woodgate, Sheila D. J. Chem. Educ. 1991, 68, 456.

Lewis Structures |

Oxidation State

Teaching a model for writing Lewis structures Pardo, Juan Quilez
A general procedure for the representation of Lewis structures.
Pardo, Juan Quilez J. Chem. Educ. 1989, 66, 456.

Lewis Structures |

Molecular Properties / Structure |

Molecular Modeling

The chemical bond DeKock, Roger L.
Overview of the chemical bond; considers ionic bonds, covalent bonds, Lewis electron dot structures, polar molecules and hydrogen bonds, and bonding in solid-state elements.
DeKock, Roger L. J. Chem. Educ. 1987, 64, 934.

Ionic Bonding |

Covalent Bonding |

Hydrogen Bonding |

Solid State Chemistry |

Lewis Structures |

Molecular Properties / Structure

Lewis structures for compounds with expanded octets Malerich, Charles J.
A simple method for recognizing expanded octets given only the molecular formula of the compound.
Malerich, Charles J. J. Chem. Educ. 1987, 64, 403.

Lewis Structures |

Molecular Properties / Structure

Drawing Lewis structures without anticipating octets Carroll, James Allen
This note presents a discussion of several examples of appropriate Lewis structures and the fine structural predictions that are possible.
Carroll, James Allen J. Chem. Educ. 1986, 63, 28.

Lewis Structures |

VSEPR Theory |

Molecular Modeling

The "6N+2 Rule" for writing Lewis octet structures Zandler, Melvin E.; Talaty, Erach R.
Applying the "6N+2 Rule" to writing Lewis octet structures.
Zandler, Melvin E.; Talaty, Erach R. J. Chem. Educ. 1984, 61, 124.

Lewis Structures |

Molecular Properties / Structure

Another procedure for writing Lewis structures Clark, Thomas J.
A simple procedure for writing a correct Lewis structure for a molecule or ion containing only s- and p-block elements.
Clark, Thomas J. J. Chem. Educ. 1984, 61, 100.

Lewis Structures |

Molecular Properties / Structure

Electron-dot structures of O2 and NO: Ignored gems from the work of J. W. Linnett Levy, Jack B.
The presented treatment makes it easier for students to make predictive models with electron-dot structures.
Levy, Jack B. J. Chem. Educ. 1983, 60, 404.

Lewis Structures |

MO Theory |

Covalent Bonding

Lewis structures and the octet rule. An automatic procedure for writing canonical forms Lever, A. B. P.
Canonical Lewis structures may be derived by a simple, almost automatic, procedure, enabling one to write down, correctly and rapidly, the resonance forms of any short period species.
Lever, A. B. P. J. Chem. Educ. 1972, 49, 819.

Lewis Structures